159 lines
7.1 KiB
HTML
159 lines
7.1 KiB
HTML
With the small exception of IP address based access control,
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requests from all connecting clients where served equally until now.
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This chapter discusses a first method of client's authentication and
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its limits.
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A very simple approach feasible with the means already discussed would
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be to expect the password in the @emph{URI} string before granting access to
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the secured areas. The password could be separated from the actual resource identifier
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by a certain character, thus the request line might look like
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@verbatim
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GET /picture.png?mypassword
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@end verbatim
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@noindent
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In the rare situation where the client is customized enough and the connection occurs
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through secured lines (e.g., a embedded device directly attached to another via wire)
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and where the ability to embedd a password in the URI or to pass on a URI with a
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password are desired, this can be a reasonable choice.
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But when it is assumed that the user connecting does so with an ordinary Internet browser,
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this implementation brings some problems about. For example, the URI including the password
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stays in the address field or at least in the history of the browser for anybody near enough to see.
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It will also be inconvenient to add the password manually to any new URI when the browser does
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not know how to compose this automatically.
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At least the convenience issue can be addressed by employing the simplest built-in password
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facilities of HTTP compliant browsers, hence we want to start there. It will however turn out
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to have still severe weaknesses in terms of security which need consideration.
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Before we will start implementing @emph{Basic Authentication} as described in @emph{RFC 2617},
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we should finally abandon the bad practice of responding every request the first time our callback
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is called for a given connection. This is becoming more important now because the client and
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the server will have to talk in a more bi-directional way than before to
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But how can we tell whether the callback has been called before for the particular connection?
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Initially, the pointer this parameter references is set by @emph{MHD} in the callback. But it will
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also be "remembered" on the next call (for the same connection).
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Thus, we will generate no response until the parameter is non-null---implying the callback was
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called before at least once. We do not need to share information between different calls of the callback,
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so we can set the parameter to any adress that is assured to be not null. The pointer to the
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@code{connection} structure will be pointing to a legal address, so we take this.
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The first time @code{answer_to_connection} is called, we will not even look at the headers.
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@verbatim
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static int
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answer_to_connection (void *cls, struct MHD_Connection *connection,
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const char *url, const char *method, const char *version,
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const char *upload_data, size_t *upload_data_size,
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void **con_cls)
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{
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if (0 != strcmp(method, "GET")) return MHD_NO;
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if (NULL == *con_cls) {*con_cls = connection; return MHD_YES;}
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...
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/* else respond accordingly */
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...
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}
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@end verbatim
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@noindent
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Note how we lop off the connection on the first condition (no "GET" request), but return asking for more on
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the other one with @code{MHD_YES}.
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With this minor change, we can proceed to implement the actual authentication process.
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@heading Request for authentication
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Let us assume we had only files not intended to be handed out without the correct username/password,
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so every "GET" request will be challenged.
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@emph{RFC 2617} describes how the server shall ask for authentication by adding a
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@emph{WWW-Authenticate} response header with the name of the @emph{realm} protected.
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MHD can generate and queue such a failure response for you using
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the @code{MHD_queue_basic_auth_fail_response} API. The only thing you need to do
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is construct a response with the error page to be shown to the user
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if he aborts basic authentication. But first, you should check if the
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proper credentials were already supplied using the
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@code{MHD_basic_auth_get_username_password} call.
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Your code would then look like this:
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@verbatim
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static int
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answer_to_connection (void *cls, struct MHD_Connection *connection,
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const char *url, const char *method,
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const char *version, const char *upload_data,
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size_t *upload_data_size, void **con_cls)
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{
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char *user;
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char *pass;
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int fail;
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struct MHD_Response *response;
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if (0 != strcmp (method, MHD_HTTP_METHOD_GET))
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return MHD_NO;
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if (NULL == *con_cls)
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{
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*con_cls = connection;
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return MHD_YES;
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}
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pass = NULL;
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user = MHD_basic_auth_get_username_password (connection, &pass);
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fail = ( (user == NULL) ||
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(0 != strcmp (user, "root")) ||
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(0 != strcmp (pass, "pa$$w0rd") ) );
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if (user != NULL) free (user);
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if (pass != NULL) free (pass);
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if (fail)
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{
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const char *page = "<html><body>Go away.</body></html>";
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response =
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MHD_create_response_from_buffer (strlen (page), (void *) page,
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MHD_RESPMEM_PERSISTENT);
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ret = MHD_queue_basic_auth_fail_response (connection,
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"my realm",
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response);
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}
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else
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{
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const char *page = "<html><body>A secret.</body></html>";
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response =
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MHD_create_response_from_buffer (strlen (page), (void *) page,
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MHD_RESPMEM_PERSISTENT);
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ret = MHD_queue_response (connection, MHD_HTTP_OK, response);
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}
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MHD_destroy_response (response);
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return ret;
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}
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@end verbatim
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See the @code{examples} directory for the complete example file.
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@heading Remarks
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For a proper server, the conditional statements leading to a return of @code{MHD_NO} should yield a
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response with a more precise status code instead of silently closing the connection. For example,
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failures of memory allocation are best reported as @emph{internal server error} and unexpected
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authentication methods as @emph{400 bad request}.
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@heading Exercises
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@itemize @bullet
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@item
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Make the server respond to wrong credentials (but otherwise well-formed requests) with the recommended
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@emph{401 unauthorized} status code. If the client still does not authenticate correctly within the
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same connection, close it and store the client's IP address for a certain time. (It is OK to check for
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expiration not until the main thread wakes up again on the next connection.) If the client fails
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authenticating three times during this period, add it to another list for which the
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@code{AcceptPolicyCallback} function denies connection (temporally).
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@item
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With the network utility @code{netcat} connect and log the response of a "GET" request as you
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did in the exercise of the first example, this time to a file. Now stop the server and let @emph{netcat}
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listen on the same port the server used to listen on and have it fake being the proper server by giving
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the file's content as the response (e.g. @code{cat log | nc -l -p 8888}). Pretending to think your were
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connecting to the actual server, browse to the eavesdropper and give the correct credentials.
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Copy and paste the encoded string you see in @code{netcat}'s output to some of the Base64 decode tools available online
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and see how both the user's name and password could be completely restored.
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@end itemize
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